JP5362509B2 - Coarse screen for manufacturing deinked pulp - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve operation efficiency of a rough sorting screen by preventing a choke of a foreign matter-discharging pipe for discharging the foreign matters when removing the foreign matters from waste-paper raw material prior to production of deinked pulp. <P>SOLUTION: Being a part of a ceiling plate 14 of the rough sorting screen 10, an inside discharging part 15 is provided at a position facing an inner side of a basket 12, and connected to an inside foreign-matter discharging pipe 15a, while an outside-discharging part 16 is provided at a position facing an outer side of the basket 12 and connected to an outside foreign-matter discharging part 16a. As to the foreign matters to be removed by the rough sorting screen 10, since the foreign matters having a possibility of growing to a large lump such as vinyl matters are apt to be located at the central side of a casing 11 and fine foreign matters such as fibrous state matters in the outer circumferential side of the casing, the foreign matters to be eliminated such as plastic matters are discharged from the inside discharging part 15 while the fine foreign matters to be eliminated are discharged from the outside discharging part 16. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a coarse screen that removes foreign matter from disintegrated waste paper in a process of producing waste paper pulp or deinked pulp using recovered recovered paper as a raw material.

  Collecting waste paper such as newspapers, cardboard, magazines, fine paper, etc. to produce deinked pulp and recycling it into newspapers, toilet paper, cardboard, etc. is preferable for resources, environment, economy, etc. In recent years, the recovery rate and utilization efficiency have been actively improved. The recovered waste paper is produced into deinked pulp at a waste paper processing plant or the like.

  In the used paper processing plant, the recovered used paper is supplied to a pulper to be disaggregated, and foreign matters such as packing strings that bind the used paper must be removed when producing deinked pulp. Such removal of large foreign matters is performed in a rough selection step before the deinking process, and a rough selection screen is mainly used.

  For example, a screen having the same structure as the papermaking screen device disclosed in Patent Document 1 is used as the rough selection screen.

  A papermaking screen 1 of this kind is shown in FIGS. FIG. 3 is a perspective view showing an appearance, and FIG. 4 is a longitudinal sectional view. In the papermaking screen 1, a basket 12 is accommodated in a casing 11, and the basket 12 is formed of a perforated plate. Inside the basket 12, an agitating blade 13 that is swung by a belt 13a and a pulley 13b around which the belt 13a is wound is disposed. The papermaking raw material is supplied from the supply pipe 2 to the inside of the basket 12 and ascends in the basket 12 while being stirred by the stirring blade 13. At this time, the used paper raw material receives a centrifugal force and is pressed against the wall of the basket 12, and the received raw material passes through the through hole of the basket 12 and is discharged to the outside of the basket 12. The received raw material is fed to the next process through the connecting pipe 3 provided in the central portion of the casing 11.

  The papermaking raw material that does not pass through the through-hole of the basket 12 is an excluded foreign matter that hinders the production of recycled paper, and this excluded foreign matter rises in the basket 12 and is provided at the upper end of the casing 11. The foreign matter discharge pipe 4 is removed. The foreign matter discharge pipe 4 is provided with a foreign matter discharge valve 4a for opening and closing the pipeline.

JP 2008-223151 A

  As described above, the coarse screen is supplied with packing material and other large foreign matters such as vinyl and polypropylene which are used to bind the waste paper, and these foreign matters may be entangled and raised in the basket. For this reason, the upper part of the basket may grow into a larger foreign substance. Largely grown foreign substances are clogged in the discharge pipe, and the pipes are blocked, and foreign substances cannot be removed. In such a case, a lump of foreign matter is removed from an air vent pipe provided in the ceiling portion of the coarse selection screen. In addition, a packing string or the like may be separated into fine fibers when ascending in the basket, and this kind of fibrous foreign matter is pushed out of the casing because it is lightweight. Since the discharge pipe is attached to the upper wall of the casing of the coarse screen, the fibrous foreign matter on the outside of the casing is easily discharged from the pipe, but when it reaches the ceiling plate, it grows into a lump. Then, it turns inside, and such a large foreign substance is difficult to be discharged, and further growth is promoted to grow into a larger lump. For this reason, when the lump of foreign matter that has grown greatly reaches the discharge pipe, the pipe is immediately closed, which may hinder the operation of the coarse selection screen.

  Therefore, the present invention is capable of reliably discharging any foreign matter that has grown into a large lump and fibrous fine foreign matter, which block the piping and cause trouble in operation. It is an object of the present invention to provide a coarse screen for producing deinked pulp that does not occur.

  As a technical means for achieving the above object, a rough screen for producing deinked pulp according to the present invention comprises a casing and a cylindrical basket made of a perforated plate housed in the casing, and is recovered recovered paper. The deinking removes the foreign material mixed in the waste paper raw material by supplying the waste paper raw material separated from the waste paper raw material to the basket and separating it into a receiving raw material that passes through the through hole of the basket and an excluded foreign matter that does not pass through. In the rough selection screen for pulp production, an inner discharge portion and an outer discharge portion are respectively disposed on the ceiling plate that closes the upper portion of the casing at positions at different distances from the center of the casing.

  As described above, in the coarse selection screen, large foreign matters such as vinyl pieces that easily grow into large lumps are easily separated on the inner side, and fibrous foreign matters are likely to be separated and stay on the outer side. For this reason, the foreign matters having different properties to be excluded are discharged from the discharge portions corresponding to the respective properties. That is, a large lump of excluded foreign matter is discharged from the inner discharge portion, and a fibrous excluded foreign matter is discharged from the outer discharge portion.

  Further, in the rough selection screen for producing deinked pulp according to the invention of claim 2, the inner discharge portion faces an inner position of the basket, and the outer discharge portion faces an outer position of the basket, respectively. It is characterized by having arranged.

  The waste paper raw material is supplied to the inside of the basket and ascends in the basket while being stirred. The excluded foreign matter rises to the upper end portion of the basket and turns along the ceiling plate. At this time, the foreign matter that may form a large lump such as vinyl is discharged from the inner discharge portion facing the inner position of the basket when it reaches the ceiling board. The small fibrous foreign matter is pushed out to the outer position of the basket by the swirling flow generated by the stirring, and is discharged from the outer discharge portion.

  According to the coarse selection screen for producing deinked pulp according to the present invention, foreign substances according to different properties separated inside the coarse selection screen are discharged from the respective discharge portions arranged at different positions from the center. Will be. Therefore, the foreign matter can be efficiently discharged, the foreign matter is not blocked in the discharge pipe, and the removal efficiency of the foreign matter by the coarse selection screen can be improved.

  Moreover, according to the rough selection screen for deinked pulp manufacture according to the invention of claim 2, since foreign matter such as vinyl rising in the basket can be quickly discharged without staying in the upper part of the basket, It can be removed without growing into lumps. Therefore, the operation efficiency of the coarse selection screen can be further improved without blocking the discharge pipe.

It is a schematic perspective view which shows the external appearance of the rough selection screen for deinked pulp manufacture which concerns on this invention. It is a schematic sectional drawing explaining the structure of the rough selection screen for deinked pulp manufacture concerning this invention. It is a schematic perspective view which shows the external appearance of the conventional papermaking screen. FIG. 4 is a schematic cross-sectional view illustrating the structure of the papermaking screen shown in FIG. 3.

  Hereinafter, based on the preferred embodiment shown in FIGS. 1 and 2, the rough selection screen for producing deinked pulp according to the present invention will be described in detail. In addition, the same code | symbol is attached | subjected about the site | part common to the papermaking screen 1 shown in FIG.3 and FIG.4.

  FIG. 1 is a perspective view showing the appearance of the coarse selection screen 10, and used paper raw material is supplied to the coarse selection screen 10 through a supply pipe 2. The used paper raw material is generated by separating the collected used paper by a pulper (not shown) in the previous step. The received raw material separated by the coarse screen 2 becomes suitable for producing deinked pulp, and is supplied to the next process through the connecting pipe 3. On the other hand, the foreign matter separated by the coarse selection screen 10 is discharged and removed through either the inner foreign matter discharge pipe 15a communicated with the inner discharge portion or the outer foreign matter discharge tube 16a communicated with the outer discharge portion. The

  FIG. 2 is a schematic longitudinal sectional view for explaining the schematic structure of the coarse selection screen 10, and has a structure having a cylindrical basket 12 inside the casing 11. The basket 12 is formed of a perforated plate in which a large number of through holes having an appropriate size are formed, and the used paper raw material supplied through the through holes is separated into the excluded foreign material and the receiving raw material. The supply pipe 2 communicates with the inner lower part of the basket 12 so that the used paper raw material is supplied to the lower part of the basket 12. The connecting pipe 3 is disposed in the central portion of the casing 11 in the vertical direction, and the received raw material that has passed through the through hole of the basket 12 is fed to the next process from the connecting pipe 3.

  Inside the basket 12, a stirring blade 13 is arranged so as to be rotatable. A pulley 13b is rotated via a drive belt 13a by a drive motor (not shown), and the agitating blade 13 is turned by the rotation of the pulley 13b so that the inside of the basket 12 is agitated.

  The ceiling plate 14 that closes the upper portion of the casing 11 is provided with an inner discharge portion 15 at a position facing the inner position of the basket 12, and an inner foreign matter discharge pipe 15a is connected to the inner discharge portion 15. The inner foreign matter discharge pipe 15a is provided with an inner discharge valve 15b. On the other hand, an outer discharge portion 16 is provided at a position facing the outer position of the basket 12, and an outer foreign matter discharge pipe 16a is connected to the outer discharge portion 16. An outer discharge valve 16b is provided in the outer foreign matter discharge pipe 16a.

  The operation of the rough selection screen for producing deinked pulp according to the present invention configured as described above will be described below.

  The used paper raw material that has been disaggregated by the pulper in the previous step is supplied from the supply pipe 2 to the inside of the basket 12. During normal operation, the foreign matter discharge valve 4a is opened, and the inner discharge valve 15b and the outer discharge valve 16b are closed.

  In the basket 12, the used paper raw material rises while being stirred by the rotation of the stirring blade 13. At the time of the ascent, the waste paper raw material is pressed against the inner wall of the basket 12 by the swirling flow of the stirring blade 13 and is pushed out of the basket 12 through the perforated hole of the perforated plate forming the basket 12. Since the waste paper raw material extruded to the outside of the basket 12 is of a size that can pass through the through-holes, it does not contain large foreign matter, and as a receiving raw material suitable for producing deinked pulp, It is fed to the next process through the connecting pipe 3.

  The waste paper raw material that has moved up inside the basket 12 and reached the top of the basket 12 contains excluded foreign matters such as vinyl or polypropylene packing strings that bound the recovered paper when recovered. Since these excluded foreign substances do not pass through the through holes of the basket 12, they reach the upper end of the basket 12, that is, the upper part of the casing 11 as the waste paper raw material rises. Further, the excluded foreign matter is swung along the ceiling plate 14 by the swirling flow by the stirring blade 13, and the swirling foreign matter is discharged through the foreign matter discharge pipe 4 by this swirling.

  As described above, the foreign matter discharge pipe 4 may be blocked when the removed foreign matter grows to form a large lump. In this case, the foreign matter discharge valve 4a is operated to close the foreign matter discharge pipe 4, and then the inner discharge valve 15a and the outer discharge valve 16b are opened. As a result, the inside of the casing 11 communicates with the outside via the inner foreign matter discharge pipe 15a and the outer foreign matter discharge pipe 16a. Since the waste paper raw material is supplied while being pushed into the casing 11 and is in a positive pressure state, the swirling of excluded foreign matter lumps from the inner discharge portion 15 when facing the inner discharge portion 15. It is discharged through the inner foreign matter discharge pipe 15a.

  Excluded foreign matter that is not discharged from the inner discharge portion 15 is pushed outward from the inner discharge portion 15 while further turning. Since the outer discharge portion 16 is provided at a position outside the inner discharge portion 15, when the foreign matter is located facing the outer discharge portion 16, the outer discharge portion 16 passes through the outer foreign matter discharge pipe 16a. Will be discharged.

  As described above, in the upper part of the casing 11, the excluded foreign matter is easily turned inside by a vinyl string or the like that tends to grow into a large lump, and the fine fibrous foreign matter is easily turned outside. For this reason, excluded foreign substances that are likely to grow into large lumps are discharged from the inner discharge section 15, and fibrous foreign substances are easily discharged from the outer discharge section 16. For this reason, it is preferable that the diameters of the discharge portions 15 and 16 are set to a size corresponding to the properties of the excluded foreign matter to be discharged. Further, since the inner discharge portion 15 is arranged facing the inner position of the basket 12, the excluded foreign matter rising in the basket 12 can be discharged before growing into a large lump, and the inner foreign matter discharge pipe 15a Is prevented as much as possible.

  According to the rough selection screen for producing deinked pulp according to the present invention, the ceiling plate of the rough selection screen is provided with the inner discharge portion and the outer discharge portion at positions at different distances from the center. By adding a slight improvement work to the coarse selection screen, it is possible to improve the operation efficiency of the coarse selection screen, thus improving the operation efficiency of the deinked pulp production plant, promoting the recovery of waste paper, This contributes to improving the production efficiency of recycled paper.

1 Papermaking screen 2 Supply pipe 3 Connection pipe 4 Foreign matter discharge pipe
10 Coarse screen
11 Casing
12 baskets
13 Stir blade
13a Drive belt
13b pulley
14 Ceiling board
15 Inner discharge
15a Inner foreign matter discharge pipe
16 Outer discharge
16a Outer foreign matter discharge pipe

Claims (2)

A casing and a cylindrical basket made of a perforated plate accommodated in the casing are provided. The used paper raw material from which the recovered used paper is disaggregated is supplied to the basket, and the receiving raw material passes through the through hole of the basket. In the coarse screen for deinked pulp production to remove foreign matter mixed in the waste paper raw material by separating it into excluded foreign matter,
A rough screen for producing deinked pulp, characterized in that an inner discharge portion and an outer discharge portion are respectively arranged on the ceiling plate that closes the upper portion of the casing at positions at different distances from the center of the casing.   2. The deinked pulp manufacturing method according to claim 1, wherein the inner discharge portion faces the inner position of the basket and the outer discharge portion faces the outer position of the basket, respectively. Coarse selection screen.

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